/*
* Copyright 2004 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef WEBRTC_BASE_HTTPBASE_H__
#define WEBRTC_BASE_HTTPBASE_H__
#include "webrtc/base/httpcommon.h"
namespace rtc {
class StreamInterface;
///////////////////////////////////////////////////////////////////////////////
// HttpParser - Parses an HTTP stream provided via Process and end_of_input, and
// generates events for:
// Structural Elements: Leader, Headers, Document Data
// Events: End of Headers, End of Document, Errors
///////////////////////////////////////////////////////////////////////////////
class HttpParser {
public:
enum ProcessResult { PR_CONTINUE, PR_BLOCK, PR_COMPLETE };
HttpParser();
virtual ~HttpParser();
void reset();
ProcessResult Process(const char* buffer, size_t len, size_t* processed,
HttpError* error);
bool is_valid_end_of_input() const;
void complete(HttpError err);
size_t GetDataRemaining() const { return data_size_; }
protected:
ProcessResult ProcessLine(const char* line, size_t len, HttpError* error);
// HttpParser Interface
virtual ProcessResult ProcessLeader(const char* line, size_t len,
HttpError* error) = 0;
virtual ProcessResult ProcessHeader(const char* name, size_t nlen,
const char* value, size_t vlen,
HttpError* error) = 0;
virtual ProcessResult ProcessHeaderComplete(bool chunked, size_t& data_size,
HttpError* error) = 0;
virtual ProcessResult ProcessData(const char* data, size_t len, size_t& read,
HttpError* error) = 0;
virtual void OnComplete(HttpError err) = 0;
private:
enum State {
ST_LEADER, ST_HEADERS,
ST_CHUNKSIZE, ST_CHUNKTERM, ST_TRAILERS,
ST_DATA, ST_COMPLETE
} state_;
bool chunked_;
size_t data_size_;
};
///////////////////////////////////////////////////////////////////////////////
// IHttpNotify
///////////////////////////////////////////////////////////////////////////////
enum HttpMode { HM_NONE, HM_CONNECT, HM_RECV, HM_SEND };
class IHttpNotify {
public:
virtual ~IHttpNotify() {}
virtual HttpError onHttpHeaderComplete(bool chunked, size_t& data_size) = 0;
virtual void onHttpComplete(HttpMode mode, HttpError err) = 0;
virtual void onHttpClosed(HttpError err) = 0;
};
///////////////////////////////////////////////////////////////////////////////
// HttpBase - Provides a state machine for implementing HTTP-based components.
// Attach HttpBase to a StreamInterface which represents a bidirectional HTTP
// stream, and then call send() or recv() to initiate sending or receiving one
// side of an HTTP transaction. By default, HttpBase operates as an I/O pump,
// moving data from the HTTP stream to the HttpData object and vice versa.
// However, it can also operate in stream mode, in which case the user of the
// stream interface drives I/O via calls to Read().
///////////////////////////////////////////////////////////////////////////////
class HttpBase
: private HttpParser,
public sigslot::has_slots<>
{
public:
HttpBase();
virtual ~HttpBase();
void notify(IHttpNotify* notify) { notify_ = notify; }
bool attach(StreamInterface* stream);
StreamInterface* stream() { return http_stream_; }
StreamInterface* detach();
bool isConnected() const;
void send(HttpData* data);
void recv(HttpData* data);
void abort(HttpError err);
HttpMode mode() const { return mode_; }
void set_ignore_data(bool ignore) { ignore_data_ = ignore; }
bool ignore_data() const { return ignore_data_; }
// Obtaining this stream puts HttpBase into stream mode until the stream
// is closed. HttpBase can only expose one open stream interface at a time.
// Further calls will return NULL.
StreamInterface* GetDocumentStream();
protected:
// Do cleanup when the http stream closes (error may be 0 for a clean
// shutdown), and return the error code to signal.
HttpError HandleStreamClose(int error);
// DoReceiveLoop acts as a data pump, pulling data from the http stream,
// pushing it through the HttpParser, and then populating the HttpData object
// based on the callbacks from the parser. One of the most interesting
// callbacks is ProcessData, which provides the actual http document body.
// This data is then written to the HttpData::document. As a result, data
// flows from the network to the document, with some incidental protocol
// parsing in between.
// Ideally, we would pass in the document* to DoReceiveLoop, to more easily
// support GetDocumentStream(). However, since the HttpParser is callback
// driven, we are forced to store the pointer somewhere until the callback
// is triggered.
// Returns true if the received document has finished, and
// HttpParser::complete should be called.
bool DoReceiveLoop(HttpError* err);
void read_and_process_data();
void flush_data();
bool queue_headers();
void do_complete(HttpError err = HE_NONE);
void OnHttpStreamEvent(StreamInterface* stream, int events, int error);
void OnDocumentEvent(StreamInterface* stream, int events, int error);
// HttpParser Interface
virtual ProcessResult ProcessLeader(const char* line, size_t len,
HttpError* error);
virtual ProcessResult ProcessHeader(const char* name, size_t nlen,
const char* value, size_t vlen,
HttpError* error);
virtual ProcessResult ProcessHeaderComplete(bool chunked, size_t& data_size,
HttpError* error);
virtual ProcessResult ProcessData(const char* data, size_t len, size_t& read,
HttpError* error);
virtual void OnComplete(HttpError err);
private:
class DocumentStream;
friend class DocumentStream;
enum { kBufferSize = 32 * 1024 };
HttpMode mode_;
HttpData* data_;
IHttpNotify* notify_;
StreamInterface* http_stream_;
DocumentStream* doc_stream_;
char buffer_[kBufferSize];
size_t len_;
bool ignore_data_, chunk_data_;
HttpData::const_iterator header_;
};
///////////////////////////////////////////////////////////////////////////////
} // namespace rtc
#endif // WEBRTC_BASE_HTTPBASE_H__